3826-55-9

Upstream product

• 462-06-6 fluorobenzene 
• 4083-64-1 Tosyl isocyanate 
• 456-22-4 4-Fluorobenzoic acid 
• 941-55-9 4-toluenesulfonyl azide 
• 403-44-1 4-fluorobenzenecarbothioic S-acid 
• 403-43-0 4-fluorobenzoyl chloride 
• 55962-05-5 [N-(p-tolylsulfonyl)imino]phenyliodinane 
• 459-57-4 4-fluorobenzaldehyde 

Downstream Products

• 1267588-36-2 3-tert-butoxycarbonylmethyl-5-fluoro-2-tosylisoindolin-1-one 
• 1360743-75-4 C₂₃H₁₉FN₂O₃S 
• 1360743-71-0 C₂₃H₁₉FN₂O₃S 
• 1356832-71-7 3-ethoxycarbonyl-3-ethoxycarbonylmethyl-5-fluoro-2-tosylisoindolin-1-one 

Relevant academic research and scientific papers

Sulfo-click chemistry with 18F-labeled thio acids

The first application of sulfo-click chemistry with 18F-labeled thio acids is described. The simple one-pot/three-component reaction proceeded rapidly within 30 min using mild reaction conditions to give various 18F-labeled small molecule N-acylsulfonamides in radiochemical conversions of 38-99%, and radiolabeled peptides in 20-25% isolated and decay-corrected radiochemical yields.

Ru(ii)-catalyzed allenylation and sequential annulation of: N -tosylbenzamides with propargyl alcohols

We hereby report Ru(ii)-catalyzed C(sp2)-H allenylation of N-tosylbenzamides to access multi-substituted allenylamides. Furthermore, the allenylamides were converted to the corresponding isoquinolone derivatives via base mediated annulation. The current protocol features low catalyst loading, mild reaction conditions, high functional group compatibility and desired scalability. The unique functionality of the afforded allenes allowed further transformations to expand the practicality of the protocol. This journal is

Controllable construction of isoquinolinedione and isocoumarin scaffolds: Via RhIII-catalyzed C-H annulation of N -tosylbenzamides with diazo compounds

A highly efficient protocol for the synthesis of isoquinolinediones by RhIII-catalyzed C-H activation/annulation/decarboxylation of N-tosylbenzamides with diazo compounds is reported. The switchable synthesis of isocoumarins was also achieved successfully via C-H activation/annulation with slight modification of the reaction conditions. Importantly, the synthetic utility of this new reaction was further demonstrated in an atom-economical and operationally convenient total synthesis of a TDP2 inhibitor derivative from commercially available starting materials.

N-Sulfonyl acetylketenimine as a highly reactive intermediate for synthesis of N-Aroylsulfonamides

A highly reactive intermediate N-sulfonyl acetylketenimine was generated from an ynone-participated CuAAC/ring-opening method. Its unique structure allowed it to react with aryl carboxylic acids to give N-aroylsulfonamides via a novel Mumm-type rearrangement.

Iron(II)-catalyzed amidation of aldehydes with iminoiodinanes at room temperature and under microwave-assisted conditions

A method for the amidation of aldehydes with PhI=NTs/PhI=NNs as the nitrogen source and an inexpensive iron(II) chloride + pyridine as the in situ formed precatalyst under mild conditions at room temperature or microwave assisted conditions is described. The reaction was operationally straightforward and accomplished in moderate to excellent product yields (20-99%) and with complete chemoselectivity with the new C-N bond forming only at the formylic C-H bond in substrates containing other reactive functional groups. By utilizing microwave irradiation, comparable product yields and short reaction times of 1 h could be accomplished. The mechanism is suggested to involve insertion of a putative iron-nitrene/imido group to the formylic C-H bond of the substrate via a H-atom abstraction/radical rebound pathway mediated by the precatalyst [Fe(py)4Cl2] generated in situ from reaction of FeCl 2 with pyridine.